JP3921351B2 - Pedestrian guidance system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a pedestrian guidance system that is convenient for users using radio.ToRelated.
[0002]
[Prior art]
Recently, large-scale shopping malls having various tenants such as so-called suburban outlet stores have been developed. In such a shopping mall, many stores are gathered, and it is not easy for a user to find a target store in the shopping mall. Furthermore, even in a single store, the sales floor area is large, and it may not be easy to find a sales floor for the target product.
In addition, at terminal stations where routes such as railways and subways gather, it is difficult for a user to easily find a route to get on, a platform to be used, and station facilities due to the multi-layered and distributed platforms.
[0003]
In the place as described above, the user moves to the destination while referring to, for example, a guide board and various bulletins. It is difficult for the user to move efficiently to a destination in an unguided place, and it is also a psychological burden to move while searching for the above-mentioned information board and various bulletins in a crowded place. .
[0004]
In order to solve the above problem, if a mobile terminal having a navigation function is provided with position detection means such as GPS (Global Positioning System), the current position is detected, and the map near the detected current position Can be displayed together with a mark indicating the current position, but a portable terminal having such a function is expensive. In addition, there is a drawback that it cannot be used in places where radio waves from communication satellites cannot be received, such as in station premises and shopping malls in buildings.
[0005]
Therefore, for example, as disclosed in Japanese Patent Laid-Open No. 11-230779, a transmission antenna that transmits a signal in the same format as the GPS signal is arranged in the station premises, and a GPS receiving unit that receives a signal from the transmission antenna is provided. A guidance information providing system using a portable terminal having a location management computer having a map database for storing map data on the premises can be used. According to this system, the current position is specified based on the GPS signal received by the mobile terminal, and the position information indicating the specified position and the destination information are transmitted to the position management computer via the telephone line. Based on the received information, the position management computer extracts map data including a route from the current position to the destination from the map database, and transmits the map data to the mobile terminal.
[0006]
For the user, the input operation of the current position and the destination is complicated, and a telephone charge is charged while the mobile terminal and the position management computer are connected via the telephone line. Furthermore, there is an inconvenience that it takes time to download map data from the position management computer to the portable terminal.
[0007]
Also, in Japanese Patent Application Laid-Open No. 11-230775, a receiving antenna for receiving a radio signal transmitted from a mobile terminal is arranged in a station, and the position management computer specifies the position of the mobile terminal based on the radio signal from the mobile terminal. In addition, a guidance information providing system that notifies the mobile terminal of the specified position information and map data from the current position to the destination is disclosed. However, this system has the same drawbacks as the guidance information providing system disclosed in Japanese Patent Laid-Open No. 11-2307779. That is, the user must input the destination from the mobile terminal, and a telephone line is used for communication between the mobile terminal and the location management computer. It is a burden on the user. Furthermore, there is an inconvenience that it takes time to download the map data.
[0008]
[Problems to be solved by the invention]
  The present invention has been made in view of the above circumstances, and is a convenient pedestrian guidance system with a small user burden.TheThe purpose is to provide.
[0011]
[Means for Solving the Problems]
  In order to achieve the above object, the present invention1The pedestrian guidance system related to
  A mobile terminal capable of wireless communication;
  An information providing server for transmitting map data of a predetermined area to the mobile terminal;
  A pedestrian guidance system comprising a plurality of repeaters for relaying wireless transmission and reception between the portable terminal and the information providing server,
  The mobile terminal includes a map receiving means for receiving map data of a predetermined area sent from the information providing server via a first relay installed at the entrance of the predetermined area; Position request means for transmitting to the information providing server a request signal for requesting position data representing its own position via a second repeater arranged in the communication device, and from the information providing server in response to the request signal Display means for receiving the position data sent via the second relay and displaying the position data superimposed on the map data received by the map receiving means;
  The information providing server includes a receiving unit that receives the request signal transmitted from the portable terminal by the position request unit, and a position specifying unit that specifies a position of the portable terminal in the predetermined area in response to the request signal. Means, and position notification means for transmitting position data representing the specified position of the mobile terminal to the mobile terminal,
  It is characterized by that.
[0012]
According to this configuration, when the user approaches the predetermined area, the map data of the predetermined area is transmitted from the information providing server to the mobile terminal, so that the destination can be confirmed in advance. Furthermore, as the user moves, the position data indicating the position of the mobile terminal is sequentially superimposed on the map data and displayed via the first relay station arranged in the predetermined area. You can easily move to the destination while checking In addition, since wireless communication is performed through a plurality of repeaters placed in a predetermined area, map data and location data according to movement can be quickly acquired from the information providing server without being charged for telephone charges. can do.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
  Pedestrian guidance system according to an embodiment of the present inventionToThis will be described below with reference to the drawings.
[0024]
FIG. 1 is a block diagram showing a configuration example of a pedestrian guidance system according to an embodiment of the present invention. The pedestrian guidance system includes a mobile terminal 10, an information providing server 20, and a wireless repeater 30 disposed in a predetermined area.
[0025]
The mobile terminal 10 receives the map data, the position data indicating the current position in the predetermined area, and the store advertisement in the predetermined area with the information providing server 20 via the wireless repeater 30. The request signal for requesting the position data and the identification signal for identifying itself are transmitted. The mobile terminal 10 includes a wireless transmission / reception antenna 11, a transmission / reception unit 12, an interface unit 13, a demodulation unit 14, a control unit 15, a data processing unit 16, a storage unit 17, a monitor unit 18, and an input. Part 19. In the present embodiment, the mobile terminal 10 is a PDA (Personal Digital Assistance) having a radio beacon transmission / reception function.
[0026]
The transmission / reception antenna 11 receives radio wave signals related to map data, location data, and store advertisements from the information providing server 20 to be described later via the wireless repeater 30, and generates a request signal and an identification signal. Each corresponding radio signal is transmitted to the information providing server 20.
[0027]
The transmission / reception unit 12 receives the radio signal from the radio repeater 30 by the transmission / reception antenna 11, amplifies the received radio signal, further filters, and transmits the amplified radio signal to the interface unit 13. In addition, the transmission / reception unit 12 amplifies the transmission signal from the interface unit 13, and then transmits it to a carrier wave (non-modulated signal) transmitted from the wireless repeater 30 described later for a certain time (FSK (Frequency-Shift Keying)). The digital angle is modulated and transmitted to the wireless repeater 30 by reflection.
[0028]
The interface unit 13 converts the signal received from the transmission / reception unit 12 into data having a format suitable for internal processing, and transmits the converted data to the demodulation unit 14. The interface unit 13 converts the transmission data received from the demodulation unit 14 into a signal suitable for wireless transmission, and transmits the converted signal to the transmission / reception unit 12.
[0029]
The demodulator 14 receives data from the interface unit 13, and demodulates the received data according to a control signal from the controller 15.
[0030]
Although not shown, the control unit 15 includes a central processing unit (CPU), a calculation storage area ROM (Read Only Memory), a calculation work area RAM (Random Access Memory), and the like. The control unit 15 reads and executes the basic OS and application program stored in the storage unit 17 in accordance with the input from the input unit 19. The control unit 15 detects a received signal or data with respect to the transmission / reception unit 12, the interface unit 13, and the demodulation unit 14, and sends a control signal for causing each component to execute the predetermined operation described above. Send. When the data processing unit 16 receives data from the demodulation unit 14, the data processing unit 16 detects the reception of the data and sends a control signal for causing the data processing unit 16 to execute a predetermined operation described later.
[0031]
The control unit 15 receives the map data and the position data transmitted from the information providing server 20 from the demodulation unit 14, superimposes the position data on the received map data, and displays them on the monitor unit 18. Furthermore, a guide advertisement screen is output to the monitor unit 18 based on the store advertisement data received from the information providing server 20.
[0032]
The control unit 15 further includes a signal generation circuit that generates an identification signal at a predetermined timing, and transmits the identification signal from the antenna unit 11 to the wireless repeater 30 via the transmission / reception unit 12. In addition, the control unit 15 generates a request signal for requesting the location data of the mobile terminal 10 from the information providing server 20, and transmits the request signal to the information from the antenna unit 11 via the wireless relay 30 via the transmission / reception unit 12. To the providing server 20. Further, in response to the request for position data, the control unit 15 demodulates the signal including the position data transmitted from the information providing server 20 by the demodulation unit 14 and transmits the demodulated position data to the data processing unit 16. .
[0033]
The data processing unit 16 includes a CPU, a memory such as an EEPROM (Electrically Erasable Programmable Read-Only Memory), a DSP (Digital Signal Processor), and the like, and digitally processes the demodulated reception data from the demodulation unit 14 to generate an image. Data, character data, and voice data are converted, and these converted data are output to the monitor unit 18.
[0034]
The storage unit 17 stores a basic OS (Operating System) for operating the mobile terminal 10 and an application program for executing an application such as schedule management. Further, the map data and the advertisement data transmitted from the information providing server 20 received via the demodulator 14 are stored.
[0035]
The monitor unit 18 includes a display device such as an LCD (Liquid Crystal Display), and outputs audio data, image data, and character data received from the data processing unit 16.
[0036]
The input unit 19 includes a touch panel unit disposed on the monitor unit 18 and an operation panel unit having operation buttons. The user selects and executes an application to be used from the initial menu of the basic application displayed on the monitor unit 18 using an operation button or a touch panel.
[0037]
The information providing server 20 receives a request signal for requesting position data and an identification signal for identifying itself from the mobile terminal 10 via the wireless repeater 30, and the map data of a predetermined area and the specified mobile terminal 10 The position data representing the position in the predetermined area and the data of the guide advertisement of the store in the predetermined area are transmitted to the mobile terminal 10. The information providing server 20 includes a transmission / reception antenna 21, a transmission / reception unit 22, an interface unit 23, a demodulation unit 24, a control unit 25, a storage unit 26, a data processing unit 27, a map database 28, and an advertisement database 29. It consists of. In the present embodiment, the information providing server 20 is a computer device having a radio wave beacon (Beacom) transmission / reception function and a host function.
[0038]
The transmission / reception unit 22 receives the radio signal from the radio repeater 30 by the transmission / reception antenna 21, amplifies the received radio signal, further filters, and transmits the amplified radio signal to the interface unit 23. In addition, the transmission / reception unit 22 amplifies the transmission signal from the interface unit 23, performs digital amplitude modulation such as GMSK, and transmits the result to the radio repeater 30.
[0039]
The interface unit 23 converts the signal received from the transmission / reception unit 22 into data having a format suitable for internal processing, and transmits the converted data to the demodulation unit 24. Further, the interface unit 23 converts the transmission data received from the demodulation unit 24 into a signal having a format suitable for transmission, and transmits the converted signal to the transmission / reception unit 22.
[0040]
The demodulator 24 receives data from the interface unit 23, and demodulates the received data according to a control signal from the controller 25.
[0041]
Although not shown, the control unit 25 includes a central processing unit (CPU) as a central processing unit, a read only memory (ROM) as a calculation storage area, a random access memory (RAM) as a calculation work area, and the like. The control unit 25 reads the program stored in the storage unit 26, detects the received signal or data for the transmission / reception unit 22, the interface unit 23, and the demodulation unit 24 according to the read program, A control signal for executing the predetermined operation described above is transmitted to each component. Further, when a request signal requesting the current position of the mobile terminal 10 is received from the demodulator 24, a control signal for executing a predetermined operation to be described later is sent to the data processor 27 in response to the request signal. .
[0042]
The control unit 25 reads map data representing the entire predetermined area stored in the storage unit 26, converts the read map data into a radio wave signal via the interface unit 23 and the transmission / reception unit 22, and transmits from the transmission / reception antenna 21. It transmits to the radio repeater 30. In addition, the control unit 25 receives position data representing the current position of the mobile terminal 10 in the predetermined area calculated by the data processing unit 27 based on the identification signal received from the mobile terminal 10, and corresponds to the position data. Map data is extracted from the map database 28, and the extracted map data is transmitted as a radio signal from the transmitting / receiving antenna 21 to the mobile terminal 10 via the wireless repeater 30.
Further, based on the position data received from the data processing unit 27, a guide advertisement for a store near the current position of the mobile terminal 10 is extracted from the advertisement database 29, and the extracted guide advertisement data is transmitted and received as a radio wave signal. 21 to the wireless repeater 30.
[0043]
The storage unit 26 includes an internal memory such as a ROM, a RAM, or a flash memory, and an entire predetermined area in which a program for executing a predetermined operation of each component of the information providing server 20 and the wireless repeater 30 are arranged. And map data representing.
[0044]
In accordance with the control signal from the control unit 25, the data processing unit 27 receives the identification signal transmitted from the mobile terminal 10 from the demodulation unit 24 via a plurality of wireless repeaters 30 that can receive the identification signal. The signal strength of each received identification signal is determined, and the relative distance between the mobile terminal 10 and the wireless repeater 30 that has received the identification signal is calculated based on the determined signal strength. Based on the calculated relative distance between the mobile terminal 10 and the plurality of wireless repeaters 30, and the position coordinates (latitude, longitude) of the wireless repeater 30 that are arranged in advance, the data processing unit 27 Ten current positions are specified, and position data (coordinate data having a predetermined position of the map data as a reference point) representing the specified current position is generated. Further, the generated position data is transmitted to the control unit 25.
[0045]
The map database 28 is stored in a recording medium such as a DVD or a CD-ROM, and displays a walking route in a predetermined area and a facility name, a store name, a sales floor name, an address, etc., which are landmarks displayed on the map data. It includes data, coordinate data representing the location of equipment, stores, etc. displayed on the map data. These data include data necessary for moving within a predetermined area on foot, such as moving means such as pedestrian bridges, three-dimensional intersections, moving sidewalks, and escalators. Based on the above-mentioned coordinate data, the control unit 25 extracts map data in a range corresponding to the current position of the mobile terminal 10 from the map database 28.
[0046]
The advertisement database 29 is stored in a recording medium such as a DVD or a CD-ROM, and stores store advertisement data in a predetermined area, for example, store name, sales floor name, service content and / or product name data, Coordinate data representing the position of the store and the sales floor displayed on the map data is included. Based on the coordinate data, the control data is extracted from the advertisement database 29 by the controller 25 in the vicinity of the current position of the mobile terminal 10.
[0047]
The wireless repeater 30 relays wireless communication between the mobile terminal 10 and the information providing server 20, and includes an antenna unit 31, a transmission / reception unit 32, an interface unit 33, a demodulation unit 34, and a control unit 35. Has been.
[0048]
The antenna unit 31 transmits and receives radio signals from the mobile terminal 10 and the information providing server 20.
[0049]
The transmission / reception unit 32 receives the radio wave signal including the map data and the like that has been subjected to digital angle modulation such as GMSK (Gaussian filtered Minimum Shift Keying) transmitted from the information providing server 20 by the antenna unit 31 as described above. The received radio signal is amplified, further filtered, and the amplified radio signal is transmitted to the interface unit 33. Further, the transmission / reception unit 32 amplifies the transmission signal from the interface unit 33 and then performs digital amplitude modulation such as ASK (Amplitude Shift Keying) that is easy to demodulate on the reception side (mobile terminal 10), thereby 10 to send. In addition, after receiving the radio signal from the information providing server 20, digitally modulating the received radio signal and transmitting it to the mobile terminal 10, the carrier wave for return from the mobile terminal 10 (no modulation) for a certain period of time. Wave signal).
[0050]
The transmission / reception unit 32 amplifies a radio signal received from the portable terminal 10 by the antenna unit 31 and includes a request signal for position data that has been subjected to digital amplitude modulation such as ASK, and further performs filtering to interface the amplified radio signal. To the unit 33. Further, the transmission / reception unit 32 amplifies the transmission signal from the interface unit 33, performs digital angle modulation such as GMSK that can maintain a high S / N ratio against external noise, and transmits the modulated signal to the information providing server 20. .
[0051]
The interface unit 33 converts the signal received from the transmission / reception unit 32 into data having a format suitable for internal processing, and transmits the converted data to the demodulation unit 34. Further, the interface unit 33 converts the transmission data received from the demodulation unit 34 into a signal suitable for wireless transmission, and transmits the converted signal to the transmission / reception unit 32.
[0052]
The demodulator 34 receives data from the interface unit 33, and demodulates the received data according to a control signal from the controller 35.
[0053]
The control unit 35 detects a received signal or data for the transmission / reception unit 32, the interface unit 33, and the demodulation unit 34, and sends a control signal for causing each component to execute the predetermined operation described above. Then, each component starts, stops, or ends the above-described operation based on the control signal.
[0054]
Next, the operation of the pedestrian guidance system according to the embodiment of the present invention will be described. In this embodiment, a shopping mall in which a large number of stores are gathered will be described as an example.
[0055]
FIG. 2 is a schematic diagram showing the arrangement of the wireless repeater 30 and the positional relationship between the user and the shopping mall.
[0056]
The user arrives at the shopping mall 2 along the road 1. The user sets the mobile terminal 10 to the standby state, and the map data representing the entire shopping mall 2 transmitted from the information providing server 20 from the first wireless repeater 30P arranged at the entrance of the shopping mall 2 (FIG. 3) is received. The user confirms the target store 3 based on the received map data. Here, the store intended by the user is store 3J.
[0057]
The user confirms that the target store 3J is on the far right side of the central street 4 of the shopping mall 2. The user first travels through the central street 4 according to the guide route of the map data, and reaches an intermediate point between the store 3A, the store 3B, the store 3C, and the store 3D. With respect to the second wireless repeaters 30A to 30D arranged at the entrances of the stores 3A to 3D (positions facing the central street 4), the user can operate the input unit 19 of the mobile terminal 10 to operate his / her current A request signal for requesting position data representing the position is transmitted. As described above, if the mobile terminal 10 is in the standby state, the mobile terminal 10 transmits an identification signal for identifying itself at a predetermined timing, so that the wireless repeaters 30A to 30D can receive the identification signal.
[0058]
In response to the received request signal, the control unit 25 of the information providing server 20 transmits a control signal instructing the data processing unit 27 to specify the current position of the mobile terminal 10. The data processing unit 27 determines the strength of the identification signal received via the radio repeaters 30A to 30D, and specifies the current position of the mobile terminal 10 based on the determined signal strength as described above. The control unit 25 receives position data (longitude, latitude) representing the position generated by the data processing unit 27 and transmits the position data to the mobile terminal 10 via the wireless repeaters 30A to 30D. As shown in FIG. 4, the user refers to the position data displayed superimposed on the map data, confirms the point in the shopping mall 2, and displays the distance to the target store 3J on the screen. It can also be approximated above.
[0059]
Based on the position data described above, the control unit 25 wirelessly relays advertisement data including a store near the current position of the user, in this case, the store names, provided services, and / or product names of the stores 3A to 3D. It transmits to portable terminal 10 via devices 30A-30D. Even if the initial destination is the store 3J, the user can stop at the store 3C, for example, with reference to the received advertisement data (FIG. 4) of the stores 3A to 3D. In such a case, since the user often has no prior knowledge about the store 3C, by selecting “Store C clothing” shown in FIG. 4, the advertisement data stored in the storage unit 17 is stored. Details can be read (see FIG. 5).
[0060]
Thereafter, the user proceeds through Chuo-dori 4 and reaches an intermediate point among store 3G, store 3H, store 3I, and store 3J. With respect to the second wireless repeaters 30G to 30J arranged at the entrances of the stores 3G to 3J (positions facing the central street 4), the user operates the input unit 19 of the mobile terminal 10 to operate his / her current A request signal for requesting position data representing the position is transmitted. Here, the wireless repeaters 30G to 30J can receive the identification signal transmitted by the mobile terminal 10.
[0061]
In response to the received request signal, the control unit 25 of the information providing server 20 transmits a control signal instructing the data processing unit 27 to specify the current position of the mobile terminal 10. The data processing unit 27 determines the strength of the identification signal received via the wireless repeaters 30G to 30J, and specifies the current position of the mobile terminal 10 based on the determined signal strength. The control unit 25 receives the position data representing the position generated by the data processing unit 27 and transmits the position data to the mobile terminal 10 via the wireless repeaters 30A to 30D. As shown in FIG. 6, the user refers to the position data displayed superimposed on the map data, and confirms that the user has arrived in front of the target store 3J.
[0062]
The user selects “detailed map request” on the map display screen shown in FIG. 6, and requests detailed map data corresponding to the current position from the wireless repeater 30J installed at the entrance of the store 3J. Send a request signal. In response to the received request signal, the control unit 25 transmits a control signal instructing the data processing unit 27 to specify the current position of the mobile terminal 10. The control unit 25 receives position data representing the current position of the mobile terminal 10 specified by the data processing unit 27, and based on the received position data, maps data indicating the sales floor arrangement in the store 3J from the map database 28. The extracted map data is transmitted to the portable terminal 10 via the wireless repeater 30J.
[0063]
The user refers to the map data of the store 3J as shown in FIG. For example, if map data on the third floor is necessary, it is possible to read the details of the map data of the store 3J stored in the storage unit 17 by selecting “3F” from the mobile terminal 10. Furthermore, as described above, the details of the advertisement data of the store J stored in the storage unit 17 can be read out by selecting “Store J imported clothing” shown in FIG. 6 in advance. In this way, the user can move to the target store 3J without hesitation and proceed to the desired sales floor. Even if there is a store for the next purpose, the user can follow the same procedure to map data for the entire shopping mall 2, map data for each store, location data representing the current location, and stores near the current location. It is possible to easily move to the next target store.
[0064]
Hereinafter, it demonstrates in detail using the flowchart which shows the flow of operation | movement with the portable terminal 10 and the information provision server 20 shown in FIG.
[0065]
FIG. 8 is a flowchart showing the operation of the pedestrian guidance system according to the embodiment of the present invention.
[0066]
The information providing server 20 sends a GMSK-modulated radio wave beacon signal corresponding to the map data of the entire shopping mall 2 including the guidance route and the store arrangement to the first wireless repeater 30P arranged at the entrance of the shopping mall 2. Is transmitted (step S101). The control unit 35 of the wireless repeater 30P receives the GMSK-modulated radio wave beacon signal from the information providing server 20 by the antenna unit 31, amplifies the received signal by the transmission / reception unit 32, filters the amplified signal Is converted by the interface unit 33, and the converted data is demodulated.
[0067]
Next, the control unit 35 transmits the demodulated data to the transmission / reception unit 32 via the interface unit 33, ASK-modulates the received data as a transmission signal, and then amplifies the radio wave corresponding to the map data from the antenna unit 31. A beacon signal is transmitted. When the user enters a range in which the radio beacon signal from the wireless repeater 30P can be received, the mobile terminal 10 receives a signal corresponding to the map data that is ASK-modulated from the wireless repeater 30A. Is received from the transmitting / receiving antenna 11 (step S102).
[0068]
The mobile terminal 10 which is a PDA receives a signal corresponding to the map data subjected to ASK modulation, amplifies the signal by the transmission / reception unit 12, performs a filtering process, and further demodulates and demodulates the signal by the demodulation unit 14 via the interface unit 13. The processed signal is transmitted to the data processing unit 16. The data processor 16 digitally processes the signal received from the demodulator 14 and converts it into image data, character data, and audio data (step S103). The data processing unit 16 outputs the digitally processed signal to the monitor unit 18 (step S104). The user views audio data (guidance guidance), image data (map data), and character data (store name, coordinate data, etc.) output from the monitor unit 18 by the data processing unit 16.
[0069]
The user confirms the position of the target store 3J with reference to the map data representing the entire shopping mall 2 shown in FIG. 3 displayed on the monitor unit 18 of the mobile terminal 10. The user first travels through the central street 4 according to the guide route of the map data, and reaches an intermediate point between the store 3A, the store 3B, the store 3C, and the store 3D.
[0070]
The control unit 15 transmits the identification signal generated by the signal generation circuit to the interface unit 13 via the demodulation unit 14. The interface unit 13 converts the identification signal received from the demodulation unit 14 into a signal suitable for wireless transmission, and transmits the converted signal to the transmission / reception unit 12. The transmitter / receiver 12 amplifies the converted identification signal, and then transmits the carrier wave (unmodulated) from the second radio repeaters 30A to 30D arranged at the entrances of the stores 3A to 3D for a certain period of time. The signal is subjected to FSK modulation and reflected and transmitted to the radio repeaters 30A to 30D (step S105).
[0071]
The user requests the wireless repeaters 30 </ b> A to 30 </ b> D for position data representing his / her current position by operating the input unit 19 of the mobile terminal 10. In response to the input operation, the control unit 15 of the mobile terminal 10 generates a request signal for requesting position data, and transmits the request signal from the transmission / reception unit 12 in the same manner as the identification signal described above. The signal is FSK modulated and reflected and transmitted to the radio repeaters 30A to 30D (step S106).
[0072]
The control units 35 of the radio repeaters 30A to 30D sequentially transmit the radio wave beacon signals corresponding to the identification signal from the portable terminal 10 and the position data request signal transmitted in Step S105 and Step S106, using the antenna unit 31. Each of the received signals is amplified by the transmission / reception unit 32, filtered, the amplified signal is converted by the interface unit 33, and the converted signal is demodulated. Further, the control unit 35 transmits each demodulated signal to the transmission / reception unit 32 via the interface unit 33, and GMSK-modulates and amplifies the signal by the transmission / reception unit 32, and transmits a corresponding radio beacon signal from the antenna unit 31. .
[0073]
The information providing server 20 receives the radio wave beacon signal corresponding to the identification signal and the request signal for requesting the position data by the transmission / reception antenna 21, amplifies each of the received signals by the transmission / reception unit 22, and performs a filtering process Then, the data is converted into a format suitable for internal processing by the interface unit 23 and demodulated by the demodulation unit 24. In response to the received position data request signal, the control unit 25 transmits a control signal instructing the data processing unit 27 to specify the current position of the mobile terminal 10 (step S107).
[0074]
The data processing unit 27 determines the strength of each identification signal received via the wireless repeaters 30A to 30D, and based on the determined signal strength, the wireless repeaters 30A to 30D that have received the identification signal from the mobile terminal 10. The relative distance between and is calculated. The data processing unit 27 is based on the calculated relative distance between the mobile terminal 10 and the plurality of wireless repeaters 30A to 30D and the position coordinates (latitude and longitude) of the wireless repeaters 30A to 30D arranged in advance. Then, the current position of the mobile terminal 10 is specified, and position data representing the specified current position is generated (step S108). Further, the generated position data is transmitted to the control unit 25.
[0075]
The control unit 25 receives position data representing the position generated by the data processing unit 27.
Based on the received position data (position coordinates (latitude, longitude)), the control unit 25 determines that the current position of the mobile terminal 10 is an intermediate point between the stores 3A to 3D, and the current position of the mobile terminal 10 The advertisement data of the stores 3A to 3D in the vicinity of is extracted from the advertisement database 29 (step S109). The control unit 25 transmits the extracted advertisement data together with the position data received from the data processing unit 27 to the portable terminal 10 through the wireless relay devices 30A to 30D in the same manner as the map data described above (step S110). .
[0076]
The control unit 15 of the mobile terminal 10 temporarily stores the position data and advertisement data transmitted in step S110 in the storage unit 17, and the stored position data and advertisement data list is output to the monitor unit 18 in step S104. It is displayed superimposed on the map data (step S111). The user confirms the location in the shopping mall 2 with reference to the position data (FIG. 4) displayed superimposed on the map data. Further, as shown in FIG. 4, the user can appropriately select a store of interest from a list of advertisement data of the stores 3 </ b> A to 3 </ b> D displayed on the monitor unit 18 and call the advertisement data of the store. . For example, when the user selects “store 3C clothing” from the list of advertisement data displayed on the monitor unit 18 via the input unit 19, the control unit 15 stores the store 3C stored in the storage unit 17. The advertisement data is read out and displayed on the monitor unit 18 (see FIG. 5).
[0077]
Thereafter, the user proceeds through Chuo-dori 4 and reaches an intermediate point among store 3G, store 3H, store 3I, and store 3J. The user requests position data representing his current position by operating the input unit 19 of the mobile terminal 10. In accordance with the request for position data from the input unit 19, the control unit 15 performs the second wireless repeater disposed at each entrance (position facing the central street 4) of each of the stores 3G to 3J in the same manner as in step S106. For 30G to 30J, the request signal is FSK modulated into a carrier wave (unmodulated signal) from the transmission / reception unit 12, and reflected and transmitted (step S112).
[0078]
Each of the control units 35 of the wireless repeaters 30G to 30J sequentially receives the radio wave beacon signal corresponding to the identification signal and the request signal for the position data from the mobile terminal 10 by the antenna unit 31 and amplifies the amplified signal by the transmitting / receiving unit 32. The converted signal is converted by the interface unit 33, and the converted signal is demodulated by the demodulation unit 34. Further, the control unit 35 transmits each demodulated signal to the transmission / reception unit 32 via the interface unit 33, and GMSK-modulates and amplifies the signal by the transmission / reception unit 32, and transmits a corresponding radio beacon signal from the antenna unit 31. .
[0079]
As in step S107, the information providing server 20 receives the radio beacon signal corresponding to the identification signal and the request signal for requesting the position data by the transmission / reception antenna 21, and responds to the received request signal for the position data, A control signal instructing to specify the current position of the mobile terminal 10 is transmitted to the data processing unit 27 (step S113). Similarly to step S108, the data processing unit 27 determines the strength of each identification signal received via the wireless repeaters 30G to 30J, and identifies the current position of the mobile terminal 10 based on the determined signal strength. Then, position data representing the specified current position is generated (step S114).
[0080]
The control unit 25 receives the position data representing the current position of the mobile terminal 10 generated and transmitted by the data processing unit 27, stores the position data in the storage unit 26, and further performs wireless relay in the same manner as in step S110. It transmits to the portable terminal 10 via the devices 30G-30J (step S115).
The control unit 15 of the portable terminal 10 displays the position data transmitted in step S115 by superimposing it on the map data output to the monitor unit 18 in step S104 (step S116). The user confirms that the vicinity of the target store 3J of the shopping mall 2 has been reached with reference to the position data (FIG. 6) displayed superimposed on the map data.
[0081]
The user selects “detailed map request” on the map display screen shown in FIG. 6 and transmits a request signal for requesting detailed map data corresponding to the current position. The control unit 15 generates a request signal for requesting map data in accordance with the detailed map data request from the input unit 19, and sends the request signal together with the identification signal generated at a predetermined timing to the store 3J. At the entrance, the request signal is FSK-modulated into a carrier wave (unmodulated signal) from the transmission / reception unit 12 to the second wireless repeater 30J and reflected and transmitted (step S117).
[0082]
The control unit 35 of the radio repeater 30J receives the radio beacon signal corresponding to the request signal and the identification signal of the FSK-modulated map data from the mobile terminal 10 by the antenna unit 31, amplifies it by the transmission / reception unit 32, and amplifies The converted signal is converted by the interface unit 33, and the converted signal is demodulated by the demodulation unit 34. Further, the control unit 35 transmits each demodulated signal to the transmission / reception unit 32 via the interface unit 33, and GMSK-modulates and amplifies the signal by the transmission / reception unit 32, and transmits a corresponding radio beacon signal from the antenna unit 31. .
[0083]
In response to the request signal for requesting the received map data, the information providing server 20 transmits a control signal instructing the data processing unit 27 to specify the current position of the mobile terminal 10 again (step S118). ). The data processing unit 27 determines the strength of the identification signal received via the wireless repeater 30J, and based on the determined signal strength, the current position of the mobile terminal 10 is the store 3J where the wireless repeater 30J is located. It identifies that it is an entrance, and generates position data representing the identified current position (step S119).
[0084]
The control unit 25 receives the position data from the data processing unit 27, extracts the map data of the store 3J from the map database 28 based on the position data (step S120), and uses the extracted map data as a wireless repeater It transmits to the portable terminal 10 via 30J (step S121). The control unit 15 of the portable terminal 10 temporarily stores the received map data of the store 3J in the storage unit 17 and outputs the stored map data to the monitor unit 18 (step S122). For example, when “3F” is selected from the input unit 19 by the user, the control unit 15 calls 3F map data from the map data of the store 3J stored in step S122 and displays the map data on the monitor unit 18. Thus, the user can check the detailed map data of the store 3J as shown in FIG. 7 before entering the store 3J.
[0085]
As described above, according to the present invention, the user can obtain map data indicating the entire shopping mall 2 from the information providing server 20 via the first wireless relay device 30P arranged at the entrance of the shopping mall 2. Received by the mobile terminal 10. The user refers to the map data and confirms the position of the target store 3J. Further, the user appropriately proceeds from the mobile terminal 10 according to the guidance route displayed on the map data, and appropriately stores the position data representing the current position of the mobile terminal 10 in the shopping mall 2. A request is made to the information providing server 20 via 30A to 30L. In response to the request, the information providing server 20 specifies the position of the mobile terminal 10 and transmits position data representing the specified position to the mobile terminal 10 via the second wireless repeaters 30A to 30L.
[0086]
The mobile terminal 10 displays the received position data superimposed on the map data, which is convenient because the user can proceed while checking the current position in the shopping mall 2 as appropriate. . Moreover, it is also possible to acquire detailed map data according to the store advertisement data and the current position as necessary. Thus, it is possible for a user to acquire necessary data from the information providing server 20 quickly and easily by a communication method via a wireless repeater that does not use a telephone line. Convenience is good because no special fee is charged.
[0087]
The present invention is not limited to the description of the above embodiment, and its application and modification are arbitrary. For example, in the above-described embodiment, it has been described that radio signal and data transmission / reception is performed using radio wave beacons. However, a radio communication method is arbitrary, and a communication distance and a radio method suitable for the communication method may be selected. . For example, optical beacons or FM multiplex broadcasts used in VICS (road traffic information system), and Bluetooth (Bluetooth), which has started to be installed in home appliances and is expected to be applied to short-range communications, is used. A communication method may be used.
[0088]
In the above embodiment, a program for causing each component of the information providing server 20 that is a computer device to execute a predetermined operation is stored in the storage unit 26, and the control unit 25 reads the program and reads the program. It has been explained that the operation of each component is controlled in accordance with the contents of. However, the storage location of the program is arbitrary, and may be stored in the memory of the control unit 25, for example. In addition, the program is stored in an arbitrary storage medium such as a hard disk, a DVD, or a CD-ROM, and the control unit 25 reads and executes the program using a reading device corresponding to the storage medium. Also good.
[0089]
In the above embodiment, the user guidance system and the like in the shopping mall 2 have been described. However, the place where the guidance system and the like are applied is arbitrary, and may be, for example, a station premises or a complex building. Furthermore, the object to be provided as map data or advertisement data is not limited to a store that provides paid products and / or services, for example, in the case of a shopping mall, it may be an information center or a parking lot, In the case of a station, it may be a ticket vending machine or a public telephone box.
[0090]
In the above embodiment, it has been described that the information providing server 20 transmits the map data of the predetermined area to the mobile terminal 10 together with the guidance route. However, for example, data such as the shortest distance from the current location to a specific store 3 and the required travel time may be transmitted to the mobile terminal 10 together with the map data. Or you may make it transmit the above-mentioned data separately according to a user's demand. Thereby, it becomes possible to smoothen the flow of users in a predetermined area such as the shopping mall 2 or the specific store 3 and alleviate congestion.
[0091]
In the above embodiment, the data processing unit 27 of the information providing server 20 specifies the current position of the mobile terminal 10 in the shopping mall 2 and generates position data (latitude and longitude) representing the specified position. Based on the position data generated by the data processing unit 27, the control unit 25 extracts advertisement data of a store near the current position of the mobile terminal 10 from the advertisement database 29, and extracts the advertisement data in the shopping mall 2. It transmits to the portable terminal 10 via 2nd radio repeater 30A-30L arrange | positioned at the store entrance. However, the information providing server 20 does not need to transmit advertisement data of a store near the current position according to the current position of the mobile terminal 10. For example, the information providing server 20 has a second location arranged at the store entrance in the shopping mall 2. You may make it transmit the advertisement data of the said store from radio repeater 30A-30L, respectively.
[0092]
In the above embodiment, the portable terminal 10 has been described as a PDA capable of transmitting and receiving radio beacons, but the configuration of the portable terminal 10 is arbitrary, for example, provided with a wireless communication function and a display function corresponding to a predetermined wireless communication method. A PDC (Personal Digital Cellular) terminal, a PHS (Personal Handyphone System) terminal, or a palm computer may be used.
[0093]
In the above embodiment, the data format of the map data transmitted from the information providing server 20 to the mobile terminal 10 is arbitrary, but may be a compressed bitmap format that enables efficient data transmission / reception, for example. . Even when the memory size is small and only simple browsing software is installed, such as a mobile phone terminal such as PDC or PHS, data can be smoothly stored, read, and displayed, which is convenient.
[0094]
In the above embodiment, it has been described that the information providing server 20 generates position data representing the current position of the mobile terminal 10 as coordinate data (longitude, latitude) using longitude and latitude, and transmits the data to the mobile terminal 10. However, the format of the coordinate data is arbitrary. For example, coordinate data (distance in the x direction, distance in the y direction) may be generated using the reference point included in the map data as the origin. In this case, as shown in FIG. 4 or FIG. 6, the user can directly obtain the distance from the coordinates of both ends of the map and the coordinates of the position data displayed on the map data displayed on the mobile terminal 10. It is convenient because it can.
[0095]
In the above embodiment, the information providing server 20 performs radio angle signals such as GMSK on the radio signals corresponding to the map data, the position data, and the advertisement data, and transmits them to the radio repeater 30. The received digital angle modulated radio wave signal is subjected to digital amplitude modulation such as ASK and transmitted to the mobile terminal 10. Digital angle modulation such as FSK is performed from the mobile terminal 10 and the radio wave signal corresponding to the position data request signal and identification signal reflected and transmitted is digitally angle-modulated such as GMSK by the wireless repeater 30 to provide information It has been described that it is transmitted to the server 20. Here, in the above-described embodiment, the radio signal modulation method is GMSK capable of maintaining a relatively high S / N ratio with respect to external noise, ASK capable of simplifying the demodulation circuit on the receiving side, or a carrier wave ( Although digital modulation schemes such as FSK suitable for reflection transmission using unmodulated wave signals) are used, the present invention is not limited to the digital modulation schemes described above, depending on the characteristics of each digital modulation scheme and the purpose of use. Any method can be selected.
[0096]
Data transmission / reception between the information providing server 20 and the wireless repeater 30 is performed by radio wave beacons using the digital modulation method described above. However, the information providing server 20 and the wireless repeater 30 are connected to each other by a LAN (Local Area Network). For example, an interface device for connecting to a network such as a communication modem may be provided for both, and data may be transmitted and received via the network.
[0097]
In the above embodiment, the frequency band used in the radio beacon is not limited and is arbitrary, but the existing VICS (Vehicle Information and Communication System) and ETC (Automatic Toll Collection System), etc. You may utilize the frequency band currently used by what is called DSRC (Dedicated Short-Range Communication).
[0098]
【The invention's effect】
  According to the present invention, a convenient pedestrian guidance system that uses a radio and has a small burden on the user is provided.TheCan be provided.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration example of a pedestrian guidance system according to an embodiment of the present invention.
FIG. 2 is a schematic diagram showing the arrangement of wireless repeaters and a shopping mall in the pedestrian guidance system according to the embodiment of the present invention.
FIG. 3 is an example of map data displayed by a mobile terminal moving through a shopping mall in the pedestrian guidance system according to the embodiment of the present invention.
FIG. 4 is an example of position data displayed by a mobile terminal moving through a shopping mall superimposed on map data in the pedestrian guidance system according to the embodiment of the present invention.
FIG. 5 is an example of advertisement data provided by the information providing server in the pedestrian guidance system according to the embodiment of the present invention.
FIG. 6 is an example of position data displayed by a mobile terminal moving in a shopping mall superimposed on map data in the pedestrian guidance system according to the embodiment of the present invention.
FIG. 7 is an example of detailed map data provided by the information providing server in the pedestrian guidance system according to the embodiment of the present invention.
FIG. 8 is a flowchart showing the operation of the pedestrian guidance system according to the embodiment of the present invention.
[Explanation of symbols]
1 road
2 Shopping mall
3 stores
4 Chuo-dori
10 Mobile devices
11 Transmitting and receiving antenna
12 Transceiver
13 Interface section
14 Demodulator
15 Control unit
16 Data processing section
17 Memory unit
18 Monitor unit
19 Input section
20 Information provision server
21 Transmitting and receiving antenna
22 Transceiver
23 Interface section
24 Demodulator
25 Control unit
26 Memory unit
27 Data processing section
28 Map database
29 Advertising database
30 wireless repeater
31 Antenna section
32 Transceiver
33 Interface section
34 Demodulator
35 Control unit

Claims (1)

A mobile terminal capable of wireless communication;
An information providing server for transmitting map data of a predetermined area to the mobile terminal;
A plurality of repeaters for relaying wireless transmission and reception between the portable terminal and the information providing server;
A pedestrian guidance system comprising:
The portable terminal is
Map receiving means for receiving map data of the predetermined area sent from the information providing server via the first relay installed at the entrance of the predetermined area;
Position request means for transmitting a request signal for requesting position data representing its own position to the information providing server via a second relay station arranged in the predetermined area;
The position data sent from the information providing server in response to the request signal is received via the second repeater, and the position data is displayed superimposed on the map data received by the map receiving means. Display means,
The information providing server includes:
Receiving means for receiving the request signal transmitted from the portable terminal by the location requesting means;
Position specifying means for specifying the position of the portable terminal in the predetermined area in response to the request signal;
Position notification means for transmitting position data indicating the position of the specified mobile terminal to the mobile terminal,
A pedestrian guidance system characterized by this.

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